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Rebuilding Coral Reefs With Sound
Rapid ocean warming and other effects caused by climate change have stressed and degraded corals around the globe, and scientists have been studying ways to rebuild, manage and conserve these vital ecosystems. A new Australian study published in Journal of Applied Ecology tested whether playing certain sounds underwater at reef restoration sites could boost the recruitment of oysters and enhance their habitat-building activities. Australia’s flat oyster is a key reef-building organism targeted for restoration efforts.
Previous studies had shown that the sound of healthy reefs differs from that of damaged reefs. Using inexpensive marine speakers, the researchers reproduced the sound of a healthy reef at four sites across two of the largest oyster reef restorations in Australia and compared the results to areas that did not receive this soundscape enrichment. The sonically enhanced areas resulted in the presence of more and larger oysters that formed more three-dimensional habitats atop the reef restorations. The scientists propose that the use of marine soundscapes during early stages of new reef restoration projects could reduce the cost of habitat recovery.
Insect-Inspired Drones Build Structures
Two London-based roboticists, Mirko Kovac and Robert StuartSmith, have developed new technology that mimics the way bees work together to build a structure. They used two free-flying drones to build a human-sized tower. The “build drone” carried expanding foam and sprayed it in slow, steady circles to form layers, while the “scan drone” surveyed the structure and identified spots where the last layer was either too thin or too thick, and it then created a plan for the build drone to even things out on the next pass to keep the structure straight and sturdy.
In a second demonstration of the technology, the drones made a cylinder the size of a large round cake using a cement-like material. The duo exhibited a great deal of precision in stacking the material to within millimeters.
The team plans to take the drones outdoors to deal with the elements and add to the complexity of the objectives and number of drones involved. If the technology can be perfected, these collaborative construction drones could be used in places where it is difficult for humans and heavy machinery to reach, like the tops of buildings, remote pipelines and disaster areas.
Lowering the Carbon Footprint of Batteries
A Swedish battery manufacturer, Northvolt, in partnership with Stora Enso, one of the largest private forest owners in the world, has developed a battery for electric vehicles (EV) with an anode made of sustainably raised and harvested wood instead of graphite, paving the way for battery production from a renewable source.
The partners figured out a way to extract lignin, a carbon-rich natural binder that comprises up to 30 percent of many trees, and turn it into a material they call Lignode. According to Stora Enso, by replacing graphite or copper anodes with Lignode, lithium-ion batteries will offer faster charging and discharging, higher cycling stability and more efficient performance in low temperature.
More than 50 percent of the EV’s carbon footprint comes from the manufacture of its battery—both in sourcing raw materials and producing the component. Mining graphite is an expensive and labor-intensive process that requires considerable resources that come from parts of the world where workers’ rights are inadequately protected. While Northvolt’s battery is not on the market yet, this development, along with others like solid-state batteries, may help to reduce the carbon footprint of EVs.
